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184 lines
5.3 KiB
Python
184 lines
5.3 KiB
Python
import pytest
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from helpers.cluster import ClickHouseCluster
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cluster = ClickHouseCluster(__file__)
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nodes = [
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cluster.add_instance(
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f"n{i}",
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main_configs=["configs/remote_servers.xml"],
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with_zookeeper=True,
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macros={"replica": f"r{i}"},
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)
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for i in range(1, 5)
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]
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@pytest.fixture(scope="module", autouse=True)
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def start_cluster():
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try:
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cluster.start()
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yield cluster
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finally:
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cluster.shutdown()
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def insert_data(table_name, row_num, all_nodes=False):
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query = (
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f"INSERT INTO {table_name} SELECT number % 4, number FROM numbers({row_num})"
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)
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if all_nodes:
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for n in nodes:
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n.query(query)
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else:
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n1 = nodes[0]
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n1.query(query)
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@pytest.mark.parametrize("custom_key", ["sipHash64(key)", "key"])
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@pytest.mark.parametrize("filter_type", ["default", "range"])
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@pytest.mark.parametrize(
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"cluster",
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["test_multiple_shards_multiple_replicas", "test_single_shard_multiple_replicas"],
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)
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def test_parallel_replicas_custom_key_distributed(
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start_cluster, cluster, custom_key, filter_type
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):
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for node in nodes:
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node.rotate_logs()
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row_num = 1000
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n1 = nodes[0]
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n1.query(f"DROP TABLE IF EXISTS dist_table ON CLUSTER {cluster} SYNC")
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n1.query(f"DROP TABLE IF EXISTS test_table_for_dist ON CLUSTER {cluster} SYNC")
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n1.query(
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f"CREATE TABLE test_table_for_dist ON CLUSTER {cluster} (key UInt32, value String) Engine=MergeTree ORDER BY (key, sipHash64(value))"
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)
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n1.query(
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f"""
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CREATE TABLE dist_table AS test_table_for_dist
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Engine=Distributed(
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{cluster},
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currentDatabase(),
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test_table_for_dist,
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rand()
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)
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"""
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)
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insert_data("dist_table", row_num)
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n1.query("SYSTEM FLUSH DISTRIBUTED dist_table")
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expected_result = ""
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for i in range(4):
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expected_result += f"{i}\t250\n"
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n1 = nodes[0]
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assert (
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n1.query(
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"SELECT key, count() FROM dist_table GROUP BY key ORDER BY key",
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settings={
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"max_parallel_replicas": 4,
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"parallel_replicas_custom_key": custom_key,
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"parallel_replicas_custom_key_filter_type": filter_type,
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"prefer_localhost_replica": 0,
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},
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)
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== expected_result
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)
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if cluster == "test_multiple_shards_multiple_replicas":
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# we simply process query on all replicas for each shard by appending the filter on replica
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assert all(
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node.contains_in_log("Processing query on a replica using custom_key")
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for node in nodes
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)
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@pytest.mark.parametrize("custom_key", ["sipHash64(key)", "key"])
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@pytest.mark.parametrize("filter_type", ["default", "range"])
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@pytest.mark.parametrize(
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"cluster",
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["test_single_shard_multiple_replicas"],
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)
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def test_parallel_replicas_custom_key_mergetree(
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start_cluster, cluster, custom_key, filter_type
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):
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for node in nodes:
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node.rotate_logs()
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row_num = 1000
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n1 = nodes[0]
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n1.query(f"DROP TABLE IF EXISTS test_table_for_mt ON CLUSTER {cluster} SYNC")
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n1.query(
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f"CREATE TABLE test_table_for_mt ON CLUSTER {cluster} (key UInt32, value String) Engine=MergeTree ORDER BY (key, sipHash64(value))"
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)
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insert_data("test_table_for_mt", row_num, all_nodes=True)
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expected_result = ""
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for i in range(4):
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expected_result += f"{i}\t250\n"
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n1 = nodes[0]
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assert (
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n1.query(
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"SELECT key, count() FROM test_table_for_mt GROUP BY key ORDER BY key",
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settings={
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"max_parallel_replicas": 4,
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"parallel_replicas_custom_key": custom_key,
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"parallel_replicas_custom_key_filter_type": filter_type,
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"parallel_replicas_for_non_replicated_merge_tree": 1,
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"cluster_for_parallel_replicas": cluster,
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},
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)
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== expected_result
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)
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@pytest.mark.parametrize("custom_key", ["sipHash64(key)", "key"])
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@pytest.mark.parametrize("filter_type", ["default", "range"])
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@pytest.mark.parametrize(
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"cluster",
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["test_single_shard_multiple_replicas"],
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)
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def test_parallel_replicas_custom_key_replicatedmergetree(
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start_cluster, cluster, custom_key, filter_type
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):
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for node in nodes:
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node.rotate_logs()
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row_num = 1000
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n1 = nodes[0]
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n1.query(f"DROP TABLE IF EXISTS test_table_for_rmt ON CLUSTER {cluster} SYNC")
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n1.query(
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f"CREATE TABLE test_table_for_rmt ON CLUSTER {cluster} (key UInt32, value String) Engine=ReplicatedMergeTree('/clickhouse/tables', '{{replica}}') ORDER BY (key, sipHash64(value))"
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)
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insert_data("test_table_for_rmt", row_num, all_nodes=False)
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for node in nodes:
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node.query("SYSTEM SYNC REPLICA test_table_for_rmt LIGHTWEIGHT")
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expected_result = ""
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for i in range(4):
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expected_result += f"{i}\t250\n"
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n1 = nodes[0]
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assert (
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n1.query(
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"SELECT key, count() FROM test_table_for_rmt GROUP BY key ORDER BY key",
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settings={
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"max_parallel_replicas": 4,
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"parallel_replicas_custom_key": custom_key,
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"parallel_replicas_custom_key_filter_type": filter_type,
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"cluster_for_parallel_replicas": cluster,
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},
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)
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== expected_result
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)
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